In terms of practical usage what differences are there between
a) copy_backward
b) copy with reverse_iterators for source and destination
In particular is one more generally applicable than the other? Are there any other differences?
Update: If there's really no difference, then any reference in C++ literature to this equivalence is appreciated. The motivation behind this question is to understand if this was by design or one of those slip ups (like missing copy_if)
First of all, use of copy_backward() clearly shows developer's intention to copy interval in reverse order.
copy_backward() works with original bidirectional iterators, while the reverse_iterator is an adaptor of a bidirectional iterator and may be not as effective as original iterator.
Using the reverse_iterator makes sense when you need to apply an algorithm for input iterators like copy() to reverse sequence, but don't have counterpart for bidirectional operators like copy_backward().
Therefore, there are conceptual and practical differences.
http://www.cplusplus.com/reference/algorithm/copy/ has a implementation of std::copy
http://www.cplusplus.com/reference/algorithm/copy_backward/ has a implementation of std::copy_backward
You can see the differences by yourself.
Note: If I were you I would use std::copy_backward, because calling std::copy with the std::reverse_iterator<T> class might be a little slower (it needs more memory than a bidirectional iterator)
The difference is that copy returns an iterator to the pass-the-end element while copy_backward returns an iterator to the first element.
They are not equivalent in that sense.
copy is ok with InputIterators and OutputIterator. Whilst copy_backward expects BidirectionalIterators.Example:
This works because vector can use RandomAccessIterator which does support the properties expected by InputIterator, OutputIterator and BidirectionalIterator.
#include <iostream>
#include <algorithm>
#include <vector>
using namespace std;
void printer(int i) {
cout << i << ", ";
}
int main() {
int mynumbers[] = {3, 9, 0, 2, 1, 4, 5};
vector<int> v1(mynumbers, mynumbers + 7);
vector<int>::iterator it = copy_backward(mynumbers, mynumbers + 7, v1.end());
for_each(v1.begin(), v1.end(), printer);
cout << endl << "Returned element: " << *it;
cout << endl;
vector<int>::reverse_iterator rit = copy(mynumbers, mynumbers + 7, v1.rbegin());
for_each(v1.begin(), v1.end(), printer);
cout << endl << "Before the first element (reverse end)? " << (rit == v1.rend());
rit--; // go to first element, because it is a reverse iterator
cout << endl << "Returned element: " << *rit;
return 0;
}
Result:
3, 9, 0, 2, 1, 4, 5,
Returned element: 3
5, 4, 1, 2, 0, 9, 3,
Before the first element (reverse end)? 1
Returned element: 5
If you'd use a container that does not support BidirectionalIterator then you risk trouble (e.g. if you'd try to copy backward a forward_list because it uses a ForwardIterator, which is does not support operations provided by a BidirectionalIterator).
Also in this case copying with reverse iterator on forward_list is also not possible, because it does not support reverse iterators.
Basically, you need to make sure the container's iterators are supported and choose according to which end of the container you'd like to have returned. Otherwise the effect is the same.
There no differences practically. In the same manner you can compare forward copying.
a) copy
b) copy_backward with reverse iterators.
There shouldn't be any difference, however: copy_backward comes handy in case the iterator is result of some function call and also much cleaner than using copy with reverse iterators.
reverse_iteratorrequires the iterator type to be properly tagged whereascopy_backwardis implemented as a simple loop. Obviously that's not guaranteed, though. As far as the standard is concerned, all iterators must be tagged.T*is tagged as a random-access iterator, since there is a guaranteed partial specializationtemplate<class T> struct iterator_traits<T*>;.